Vehicular Alarm System Using mHealth Data and Lightweight Security Algorithms

Among the various factors affecting long distance driving are the risks imposed by a driver’s health, which could result in road accidents. Internet of Things (IoT) and mobile health (mHealth) technologies are increasingly being recognized for their role in monitoring various health parameters of su...
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Autor*in:	James Jin Kang [verfasserIn] Sazia Parvin [verfasserIn] Kiran Fahd [verfasserIn] Sitalakshmi Venkatraman [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2019

Schlagwörter:	mobile health (mHealth) mobile healthcare (mHealthcare) system vehicular information system (VIS) wearable devices emergency alarm system road accidents wireless body area network (WBAN) lightweight security security algorithm

Übergeordnetes Werk:	In: Technologies - MDPI AG, 2014, 7(2019), 1, p 25
Übergeordnetes Werk:	volume:7 ; year:2019 ; number:1, p 25

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/technologies7010025

Katalog-ID:	DOAJ003890252

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author	James Jin Kang
spellingShingle	James Jin Kang misc mobile health (mHealth) misc mobile healthcare (mHealthcare) system misc vehicular information system (VIS) misc wearable devices misc emergency alarm system misc road accidents misc wireless body area network (WBAN) misc lightweight security misc security algorithm misc Technology misc T Vehicular Alarm System Using mHealth Data and Lightweight Security Algorithms
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topic_title	Vehicular Alarm System Using mHealth Data and Lightweight Security Algorithms mobile health (mHealth) mobile healthcare (mHealthcare) system vehicular information system (VIS) wearable devices emergency alarm system road accidents wireless body area network (WBAN) lightweight security security algorithm
topic	misc mobile health (mHealth) misc mobile healthcare (mHealthcare) system misc vehicular information system (VIS) misc wearable devices misc emergency alarm system misc road accidents misc wireless body area network (WBAN) misc lightweight security misc security algorithm misc Technology misc T
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title	Vehicular Alarm System Using mHealth Data and Lightweight Security Algorithms
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title_sort	vehicular alarm system using mhealth data and lightweight security algorithms
title_auth	Vehicular Alarm System Using mHealth Data and Lightweight Security Algorithms
abstract	Among the various factors affecting long distance driving are the risks imposed by a driver’s health, which could result in road accidents. Internet of Things (IoT) and mobile health (mHealth) technologies are increasingly being recognized for their role in monitoring various health parameters of such drivers. IoT devices such as wearable devices could be used efficiently in vehicles by professional long-distance drivers. However, the adoption of such technologies is limited by security and privacy issues. This paper proposes a novel vehicular alarm notification system by integrating mHealth data of the driver with vehicular data for improving vehicle safety. The purpose of the system is to minimize road accidents by integrating the emerging mHealth technologies with the vehicular information system (VIS) using wireless body area network sensors and devices in a secure and lightweight framework. An integrated secure system could facilitate adoptability to provide timely notifications of emergencies to drivers in order to avoid road accidents and take appropriate follow-up actions. Furthermore, the information gathered by the integrated system could assist health service providers to address the driver’s root cause of potential health risks. The lightweight security framework adopted in this study is based on an efficient trust model that can improve the adoption of an mHealth integrated vehicular alarm notification system. Our contribution is to provide a real-time alarm notification service to avoid potential traffic accidents by monitoring the health status of long-distance drivers, achieved through incorporating an affordable and lightweight security system to secure health data transfer.
abstractGer	Among the various factors affecting long distance driving are the risks imposed by a driver’s health, which could result in road accidents. Internet of Things (IoT) and mobile health (mHealth) technologies are increasingly being recognized for their role in monitoring various health parameters of such drivers. IoT devices such as wearable devices could be used efficiently in vehicles by professional long-distance drivers. However, the adoption of such technologies is limited by security and privacy issues. This paper proposes a novel vehicular alarm notification system by integrating mHealth data of the driver with vehicular data for improving vehicle safety. The purpose of the system is to minimize road accidents by integrating the emerging mHealth technologies with the vehicular information system (VIS) using wireless body area network sensors and devices in a secure and lightweight framework. An integrated secure system could facilitate adoptability to provide timely notifications of emergencies to drivers in order to avoid road accidents and take appropriate follow-up actions. Furthermore, the information gathered by the integrated system could assist health service providers to address the driver’s root cause of potential health risks. The lightweight security framework adopted in this study is based on an efficient trust model that can improve the adoption of an mHealth integrated vehicular alarm notification system. Our contribution is to provide a real-time alarm notification service to avoid potential traffic accidents by monitoring the health status of long-distance drivers, achieved through incorporating an affordable and lightweight security system to secure health data transfer.
abstract_unstemmed	Among the various factors affecting long distance driving are the risks imposed by a driver’s health, which could result in road accidents. Internet of Things (IoT) and mobile health (mHealth) technologies are increasingly being recognized for their role in monitoring various health parameters of such drivers. IoT devices such as wearable devices could be used efficiently in vehicles by professional long-distance drivers. However, the adoption of such technologies is limited by security and privacy issues. This paper proposes a novel vehicular alarm notification system by integrating mHealth data of the driver with vehicular data for improving vehicle safety. The purpose of the system is to minimize road accidents by integrating the emerging mHealth technologies with the vehicular information system (VIS) using wireless body area network sensors and devices in a secure and lightweight framework. An integrated secure system could facilitate adoptability to provide timely notifications of emergencies to drivers in order to avoid road accidents and take appropriate follow-up actions. Furthermore, the information gathered by the integrated system could assist health service providers to address the driver’s root cause of potential health risks. The lightweight security framework adopted in this study is based on an efficient trust model that can improve the adoption of an mHealth integrated vehicular alarm notification system. Our contribution is to provide a real-time alarm notification service to avoid potential traffic accidents by monitoring the health status of long-distance drivers, achieved through incorporating an affordable and lightweight security system to secure health data transfer.
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